Combined Prussian Blue Nanozyme Carriers Improve Photodynamic Therapy and Effective Interruption of Tumor Metastasis
Wenhao Shen, Gaohua Han, Lei Yu, Song Yang, Xiangyi Li, Wei Zhang, Pei Pei
Abstract
Introduction: Photodynamic therapy (PDT) as a new technique for theranostics is to kill tumor cells by activating photosensitizer and interacting with oxygen (O 2 ) to produce reactive oxygen species (ROS). However, the hypoxic tumor microenvironment (TME) may constrain the efficacy of PDT. Moreover, the lack of O 2 in TME also up-regulates the expression of HIF-1α and promotes tumor metastasis, which is also a leading cause of death for terminal cancer patients. Methods: Prussian blue (PBs) was firstly synthesized by hydrothermal method, which was then etched by hydrochloric acid to obtained hollow Prussian blue nanoparticles (HPBs). Afterwards, Au-Pt nanozymes were in situ growing on the HPBs by reduction method to prepare [email protected] (APHPBs). Owing to the hollow structure of APHPBs, photosensitizer Ce6 can be easily and efficiently loaded into it to obtain [email protected] (Ce6-APHPBs). After ce6-APHPBS regulation, photoacoustic imaging and hypoxic fluorescence imaging were then used to evaluate changes in hypoxic TME in vivo. Finally, under the assistant of Ce6-APHPBs, we evaluated the inhibitory effect of enhanced PDT on primary and metastatic tumors. Results: We first designed and synthesized Ce6 loaded hollow prussian blue nanoparticles with Au-Pt nanozymes grown in situ on it. Both in vitro and in vivo experiments show that the prepared Ce6-APHPBs have good biosafety and could effectively degrade the overexpressed H 2 O 2 in TME to generate O 2 , further relieve the hypoxic TME and thus enhance the effect of PDT. At the same time, the increasing O 2 content could also reduce the expression of HIF-1α at the tumor site, which could reduce lung metastasis. Conclusion: Ce6-APHPBs designed by us could not only efficiently enhance PDT but also regulate TME to reduce tumor metastasis and prolong survival of mice, which provide a novel idea and strategy for clinical PDT and metastatic tumor. Keywords: Au-Pt nanozymes, prussian blue, enhanced PDT, TME, HIF-1α, tumor metastasis